A transmitter operating in a communication system is provided. The transmitter includes an encoding circuit and a modulation circuit. The transmitter is configured to generate multiple encoded bits according to an encoding relationship, in which the encoding relationship is corresponding to a code rate and a minimum distance, and the minimum distance is greater than a reciprocal of the code rate. The modulation circuit is configured to generate a transmission signal according to the encoded bits, such that the encoded bits are transmitted over multiple subcarriers, and each encoded bit is transmitted via a subcarrier. The encoding relationship is corresponding to multiple output codewords, and the minimum distance represents a minimum Hamming distance between two distinct output codewords. One of the output codewords includes the encoded bits.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A transmitter, operating in a communication system, the transmitter comprising: an encoding circuit, configured to generate a plurality of encoded bits according to an encoding relationship, wherein the encoding relationship is corresponding to a code rate and a minimum distance, and the minimum distance is greater than a reciprocal of the code rate; and a modulation circuit, configured to generate a transmission signal according to the plurality of encoded bits, such that the plurality of encoded bits are transmitted over a plurality of sub carriers, and each encoded bit is transmitted via one of the subcarriers; wherein all coding schemes of the encoding circuit comply with the encoding relationship, the encoding relationship is corresponding to a plurality of output codewords, and the minimum distance represents a minimum Hamming distance between two distinct output codewords; wherein one of the output codeword comprises the plurality of encoded bits.
2. The transmitter of claim 1 , wherein the transmission signal is applied in a range extension mode.
3. The transmitter of claim 1 , wherein the modulation circuit comprises an inverse Fast Fourier transform (IFFT) module.
4. The transmitter of claim 1 , wherein the encoding relationship is corresponding to a (n, k, d) code, where n represents an output codeword length, k represents a number of input information bit, d represents the minimum distance, the code rate is k divided by n, and (n, k, d) is equal to (6, 2, 4).
5. The transmitter of claim 1 , wherein the encoding relationship is corresponding to a (n, k, d) code, where n represents an output codeword length, k represents a number of input information bit, d represents the minimum distance, the code rate is k divided by n, and (n, k, d) is equal to (8, 2, 5).
6. A communication system, comprising: a transmitter, comprising: an encoding circuit, configured to generate a plurality of encoded bits according to an encoding relationship, wherein the encoding relationship is corresponding to a code rate and a minimum distance, and the minimum distance is greater than a reciprocal of the code rate; and an modulation circuit, configured to generate a transmission signal according to the plurality of encoded bits, such that the plurality of encoded bits are transmitted over a plurality of subcarriers, and each encoded bit is transmitted via one of the subcarriers; wherein the encoding relationship is corresponding to a plurality of output codewords, and the minimum distance represents a minimum Hamming distance between two distinct output codewords; wherein one of the output codewords comprises the plurality of encoded bits; and a receiver, configured to decode the plurality of encoded bits according to the encoding relationship; wherein the transmission signal is applied in a range extension mode.
7. The communication system of claim 6 , wherein the communication system complies with a standard of IEEE 802.11bd.
8. The communication system of claim 6 , wherein the encoding relationship is corresponding to a (n, k, d) code, where n represents an output codeword length, k represents a number of input information bit, d represents the minimum distance, the code rate is k divided by n, and (n, k, d) is equal to (6, 2, 4).
9. The communication system of claim 6 , wherein the encoding relationship is corresponding to a (n, k, d) code, where n represents an output codeword length, k represents a number of input information bit, d represents the minimum distance, the code rate is k divided by n, and (n, k, d) is equal to (8, 2, 5).
10. A transmission method, comprising: generating a plurality of encoded bits according to an encoding relationship, wherein the encoding relationship is corresponding to a code rate and a minimum distance, and the minimum distance is greater than a reciprocal of the code rate; and generating a transmission signal according to the plurality of encoded bits, such that the plurality of encoded bits are transmitted over a plurality of subcarriers, and each encoded bit is transmitted via one of the subcarriers; wherein all coding schemes of generating the plurality of encoded bits comply with the encoding relationship, the encoding relationship is corresponding to a plurality of output codewords, and the minimum distance represents a minimum Hamming distance between two distinct output codewords; wherein one of the output codewords comprises the plurality of encoded bits.
11. The transmission method of claim 10 , wherein the encoding relationship is corresponding to a (n, k, d) code, where n represents an output codeword length, k represents a number of input information bit, d represents the minimum distance, the code rate is k divided by n, and (n, k, d) is equal to (6, 2, 4).
12. The transmission method of claim 10 , wherein the encoding relationship is corresponding to a (n, k, d) code, where n represents an output codeword length, k represents a number of input information bit, d represents the minimum distance, the code rate is k divided by n, and (n, k, d) is equal to (8, 2, 5).
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February 19, 2020
February 2, 2021
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